EP3087990A1 - Gel-forming agent containing sulfonamide and chitosan and having a powdered dosage form - Google Patents
Gel-forming agent containing sulfonamide and chitosan and having a powdered dosage form Download PDFInfo
- Publication number
- EP3087990A1 EP3087990A1 EP14874363.6A EP14874363A EP3087990A1 EP 3087990 A1 EP3087990 A1 EP 3087990A1 EP 14874363 A EP14874363 A EP 14874363A EP 3087990 A1 EP3087990 A1 EP 3087990A1
- Authority
- EP
- European Patent Office
- Prior art keywords
- agent
- gel
- chitosan
- sulfa
- wound
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Granted
Links
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- ZZORFUFYDOWNEF-UHFFFAOYSA-N sulfadimethoxine Chemical compound COC1=NC(OC)=CC(NS(=O)(=O)C=2C=CC(N)=CC=2)=N1 ZZORFUFYDOWNEF-UHFFFAOYSA-N 0.000 claims description 11
- YZMCKZRAOLZXAZ-UHFFFAOYSA-N sulfisomidine Chemical compound CC1=NC(C)=CC(NS(=O)(=O)C=2C=CC(N)=CC=2)=N1 YZMCKZRAOLZXAZ-UHFFFAOYSA-N 0.000 claims description 10
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Images
Classifications
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- A61P17/00—Drugs for dermatological disorders
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61P—SPECIFIC THERAPEUTIC ACTIVITY OF CHEMICAL COMPOUNDS OR MEDICINAL PREPARATIONS
- A61P17/00—Drugs for dermatological disorders
- A61P17/02—Drugs for dermatological disorders for treating wounds, ulcers, burns, scars, keloids, or the like
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61P—SPECIFIC THERAPEUTIC ACTIVITY OF CHEMICAL COMPOUNDS OR MEDICINAL PREPARATIONS
- A61P27/00—Drugs for disorders of the senses
- A61P27/02—Ophthalmic agents
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61P—SPECIFIC THERAPEUTIC ACTIVITY OF CHEMICAL COMPOUNDS OR MEDICINAL PREPARATIONS
- A61P43/00—Drugs for specific purposes, not provided for in groups A61P1/00-A61P41/00
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61L—METHODS OR APPARATUS FOR STERILISING MATERIALS OR OBJECTS IN GENERAL; DISINFECTION, STERILISATION OR DEODORISATION OF AIR; CHEMICAL ASPECTS OF BANDAGES, DRESSINGS, ABSORBENT PADS OR SURGICAL ARTICLES; MATERIALS FOR BANDAGES, DRESSINGS, ABSORBENT PADS OR SURGICAL ARTICLES
- A61L2300/00—Biologically active materials used in bandages, wound dressings, absorbent pads or medical devices
- A61L2300/20—Biologically active materials used in bandages, wound dressings, absorbent pads or medical devices containing or releasing organic materials
- A61L2300/216—Biologically active materials used in bandages, wound dressings, absorbent pads or medical devices containing or releasing organic materials with other specific functional groups, e.g. aldehydes, ketones, phenols, quaternary phosphonium groups
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61L—METHODS OR APPARATUS FOR STERILISING MATERIALS OR OBJECTS IN GENERAL; DISINFECTION, STERILISATION OR DEODORISATION OF AIR; CHEMICAL ASPECTS OF BANDAGES, DRESSINGS, ABSORBENT PADS OR SURGICAL ARTICLES; MATERIALS FOR BANDAGES, DRESSINGS, ABSORBENT PADS OR SURGICAL ARTICLES
- A61L2300/00—Biologically active materials used in bandages, wound dressings, absorbent pads or medical devices
- A61L2300/40—Biologically active materials used in bandages, wound dressings, absorbent pads or medical devices characterised by a specific therapeutic activity or mode of action
- A61L2300/404—Biocides, antimicrobial agents, antiseptic agents
- A61L2300/406—Antibiotics
Definitions
- the present invention relates to a gel-forming agent comprising a sulfa agent and chitosan agent and having a powdered dosage form, more particularly, to a gel-forming agent for protecting an exudative affected area, and even more particularly, to a gel-forming agent for treating a wound.
- the present invention provides a kit containing a gel-forming agent, a method for forming a gel at a target affected area comprising a step for applying a gel-forming agent, more particularly, a method for protecting an exudative affected area, and even more particularly, a wound treatment method.
- wounds observed in the clinical context impose severe physical, emotional and financial burdens on subject suffering from wounds.
- inadequate treatment of wounds increases the risk of bacterial infection.
- symptoms such as abscess, cellulitis or exudate are manifest at the wound site, resulting in tissue damage and prolongation of treatment.
- the wound surface may become discolored and form abnormal granulation tissue, resulting in the onset of pain, reddening or a foul odor.
- Sulfa agents have long been used to prevent and treat infections.
- Sulfa agents refer to the generic term for synthetic compounds having a sulfonamide group.
- Sulfa agents antagonistically inhibit para-aminobenzoic acid, the substrate of dihydropteroate synthase, which is an essential enzyme of the folic acid synthesis pathway.
- sulfa agents demonstrate an antibacterial action by inhibiting folic acid synthesis, as well as DNA/RNA synthesis requiring folic acid, in bacteria.
- sulfa agents demonstrate a blood pH-lowering action by preventing the formation of bicarbonate ions by inhibiting carbonic anhydrase.
- antibacterial action is demonstrated by lowered wound pH to a pH below the optimum pH for bacterial growth.
- Chitosan agents are also widely used in wound treatment. Chitosan agents having a D-glucosamine polymer as the main component thereof induce fibroblasts to promote granulation and accelerate wound healing when applied to a wound site.
- a pharmaceutical cream for restoring skin and treating bacterial skin infections that contains a sulfa agent and chitosan agent (Patent Document 1).
- Patent Document 1 International Publication No. WO 2010-119369
- sulfa agents are only slightly soluble in water and end up drying immediately, they were required to adopt the dosage form of a cream when used as a wound healing agent.
- the cream is applied by the person performing treatment while repeatedly making direct contact with the wound site, thereby subjecting to the patient to irritating pain while also requiring a technique to ensure the cream is applied uniformly.
- Chitosan agents may cause excessive promotion of granulation or exacerbate inflammation by promoting bacterial growth as a result of having a somewhat high pH, thereby resulting in the problem of handling difficulties when used as a wound healing agent.
- adhesive sheets have been provided to improve on this problem, adhesive sheets have problems such as difficulty in sticking to joints or wound sites having a highly irregular surface or wounds covered with hair, reinjuring normal skin or granulated wound sites when peeled from the skin where the adhesive sheet is adhered, or causing the patient pain when peeled from the skin.
- the gist of the present invention is as indicated below.
- a wound healing composition that has a wound healing effect that is more remarkable than that of a conventional sulfa agent or chitosan agent alone.
- a powder containing a sulfa agent and a chitosan agent maintains the pH of a wound site within a range at which greater healing effects are demonstrated and exhibits antibacterial action of a sulfa agent.
- the wound site is kept at suitable moist condition to form granulation appropriately.
- the use of a suitable dissipating container makes it possible to disperse the wound healing composition without the person performing treatment making direct contact with the wound site.
- a gel layer is surprisingly formed by interaction between the sulfa agent and the chitosan agent when the powder contacts body fluid at the wound site, thereby also fulfilling the role of protecting the wound site.
- the present invention provides a gel-forming agent comprising a sulfa agent and a chitosan agent and having a powdered dosage form, more particularly, a gel-forming agent for protecting an exudative affected area, and even more particularly, a gel-forming agent for treating a wound.
- the gel-forming agent of the present invention comprises a sulfa agent.
- the sulfa agent refers to an arbitrary synthetic compound having a sulfonamide group that can be presumed to be used in a pharmaceutical. Specific examples thereof include, but are not limited to, sulfamonomethoxine, acetylsulfamethoxazole, salazosulfapyridine, sulfadiazine, silver sulfadiazine, sulfadimethoxine, sulfathiazole, sulfaphenazole, sulfamethoxazole, sulfamethoxypyridazine, sulfamethopyrazine, sulfamethomidine, sulfamethizole, sulfamerazine, sulfisoxazole, sulfisomidine, sulfisomidine sodium and homosulfamine
- sulfa agents may also be in the form of a derivative or a salt such as a silver salt.
- the sulfa agent is sulfamonomethoxine or a sulfadimethoxine.
- the sulfa agent is sulfamonomethoxine.
- the gel-forming agent of the present invention comprises a chitosan agent.
- a chitosan agent refers to a mixture having a linear polymer of D-glucosamine in the form of chitosan as the main component thereof.
- the degree of polymerization or molecular weight of the chitosan agent is no particular limitations.
- the chitosan agent of the present invention is a mixture of a high molecular weight chitosan (molecular weight: 10,000 or more) and a low molecular weight chitosan (molecular weight: less than 10,000).
- the mixing ratio of the high molecular weight chitosan and low molecular weight chitosan an example thereof is a mixing ratio having a weight ratio of 1:9 to 9:1.
- the chitosan agent in the present invention may further contain chitin.
- Chitin refers to a linear polymer of N-acetyl glucosamine and glucosamine. There are no particular limitations on the degree of polymerization of the chitin, and may be an oligosaccharide (degree of polymerization: 3 to 10).
- the content of chitin is preferably a weight ratio of 15% or less.
- the gel-forming agent of the present invention comprises sulfamonomethoxine and a chitosan agent comprising chitin.
- the ratio of high molecular weight chitosan to low molecular weight chitosan to chitin oligosaccharide in the chitosan agent comprising chitin is a weight ratio of 39:59:2.
- the mixing ratio of the sulfa agent and chitosan agent of the present invention there are no particular limitations on the mixing ratio of the sulfa agent and chitosan agent of the present invention, and can be set as desired corresponding to the type and severity of the wound.
- the sulfa agent and chitosan agent of the present invention are mixed at a weight ratio of 20:1 to 1:20.
- the sulfa agent and the chitosan agent are mixed at a weight ratio of 5:1 to 1:5.
- the gel-forming agent of the present invention in which the sulfa agent and chitosan agent are mixed at a weight ratio of 21:5 is preferable.
- the sulfa agent, chitosan agent and excipient are mixed at a weight ratio of, for example, 21:5:84.
- the gel-forming agent of the present invention in which the sulfa agent and chitosan agent are mixed at a weight ratio of 7:15 is preferable.
- the sulfa agent, chitosan agent and excipient are mixed at a weight ratio of, for example, 7:15:28.
- the dosage form of the gel-forming agent of the present invention is a powder.
- a powder refers to a powdered dosage form.
- the particle diameter of the powder it is preferably a particle diameter that allows the powder to pass through a sieve having an opening size of 500 ⁇ m.
- a powder of this particle size enables the gel-forming agent of the present invention to be applied uniformly without the person performing treatment making direct contact with the affected area by using, for example, a dissipating container.
- the method used to formulate the gel-forming agent of the present invention into the dosage form of a powder provided it is a method commonly carried out for pharmaceutical preparations, and may be granulation in order to demonstrate the effects of the present invention. Examples of granulation methods include disintegrating granulation, extrusion granulation, fluidized-bed granulation, spray granulation, tumbling granulation and agitation granulation.
- a drug can be applied without limiting the location, form or state of the affected area.
- the sulfa agent and chitosan agent interact with moisture resulting in the formation of a somewhat gel-like layer when the drug is applied to an exudative affected area and contacts a body fluid such as blood, saliva or exudate.
- a body fluid such as blood, saliva or exudate.
- the gel-forming agent is easily retained at the wound site while also simultaneously fulfilling the role of a protective sheet.
- the surface of the sheet has low viscosity and prevents foreign objects from adhering to the wound site.
- the thickness and degree of solidity of the gel layer formed by the gel-forming agent of the present invention as described above is adjusted spontaneously according to the degree of severity of the affected area. Namely, in the case a wound is severe and there is a large amount of exudate, the gel-forming agent of the present invention adheres in a thick layer, while in the case the wound is healing and there is little exudate, the gel-forming agent of the present invention adheres in a thin layer. In addition, unnecessary powder comes off spontaneously accompanying body movement. Furthermore, the gel layer can be easily removed with water or physiological saline without causing intense pain or injury to the patient.
- the gel-forming agent of the present invention may also contain an arbitrary pharmacologically acceptable excipient, vehicle or diluent provided the effects of the present invention are not lost.
- excipients include, but are not limited to, lactose, sucrose and cornstarch.
- the gel-forming agent of the present invention can be used at an arbitrary affected area.
- the affected area may be a skin surface, mucous membrane, oral cavity, digestive organ or urinary bladder.
- wounds include acute wounds selected from the group consisting of an incised wound, laceration, abrasion, puncture wound, penetrating wound, bruise, hematoma and crush wound, and chronic wounds selected from the group consisting of venous ulcer, diabetic ulcer, decubital ulcer, corneal ulcer, digestive ulcer, ischemia, radiation injury, stomatitis and skin disease.
- a subject to which the gel-forming agent of the present invention is applied is an arbitrary animal that has incurred a wound.
- subjects include, but are not limited to, birds, reptiles, amphibians, fish and mammals.
- the subject is a mammal, and examples thereof include a dog, cat, horse, sheep, cow and human.
- the dosage form of the gel-forming agent of the present invention is a powder.
- the gel-forming agent of the present invention is applied without the person performing treatment making direct contact with the wound site by using a powder dissipating container.
- the dissipating container used in this case may be an arbitrary container capable of dispersing the gel-forming agent of the present invention, and an eyedropper, for example, may be used to apply the gel-forming agent of the present invention.
- the present invention also provides a method for producing the gel-forming agent of the present invention that comprises mixing a sulfa agent, a chitosan agent, and an excipient as necessary.
- Examples of raw materials preferably used in the production method of the present invention include each of the compounds exemplified in the gel-forming agent of the present invention.
- the chitosan agent may be obtained by deacetylation of chitin using a known method.
- the mixing method used in the production method of the present invention provided the sulfa agent and the chitosan agent are uniformly mixed in the form of a powder.
- a chitosan agent having a low specific gravity is first placed in a mixing container followed by the addition of a sulfa agent having a high specific gravity and mixing by stirring. According to this mode, the raw materials are mixed more rapidly and uniformly.
- the present invention also provides a powdered sulfa agent for applying to an affected area of a subject either separately and consecutively or simultaneously by combining with a powdered chitosan agent in order to form a gel, more particularly, to protect an exudative affected area, and even more particularly, to treat a wound.
- powdered sulfa agent of the present invention include sulfa agents exemplified in the gel-forming agent of the present invention.
- the present invention also provides a powdered chitosan agent for applying to an affected area of a subject either separately and consecutively or simultaneously by combining with a powdered sulfa agent in order to form a gel, more particularly, to protect an exudative affected area, and even more particularly, to treat a wound.
- powdered chitosan agent of the present invention include chitosan agents exemplified in the gel-forming agent of the present invention.
- the present invention provides a gel formation kit containing the gel-forming agent of the present invention, a powdered sulfa agent for applying by combining with a chitosan agent or a powdered chitosan agent for applying by combining with a sulfa agent, and depending on the case, a dissipating container.
- the gel formation kit of the present invention contains a powder dissipating container.
- the powder dissipating container is an arbitrary container capable of dispersing the gel-forming agent of the present invention, and is an eyedropper container, for example.
- Preferable examples of the sulfa agent and chitosan agent in the gel formation kit of the present invention include each of the compounds exemplified in the gel-forming agent of the present invention.
- the present invention provides a method for forming a gel at an affected area of a subject, more particularly, a method for protecting an exudative affected area, and even more particularly, a method for treating a wound, comprising:
- wounds that were unable to be adequately healed using a conventional treatment method can be healed to a degree that they do not have an effect on the daily life of the subject.
- the sulfa agent and the chitosan agent may be applied separately and consecutively, or may be applied simultaneously. In the case of applying simultaneously, they can be preferably applied as a mixture of the two.
- Examples of the powdered sulfa agent and chitosan agent applied in the method of the present invention include each of the compounds exemplified in the gel-forming agent of the present invention.
- the powder is directly applied to an affected area, and more particularly, to an exudative affected area or wound site. Applying directly refers to applying the powder as is.
- a dissipating container can be used during application.
- the dissipating container is an arbitrary container capable of spraying the gel-forming agent of the present invention, and is, for example, an eyedropper container.
- the method of the present invention further comprises a step for preliminarily rinsing the affected area with water, physiological saline, or water or physiological saline containing a sulfa agent prior to applying the sulfa agent and chitosan agent to the affected area.
- water containing the sulfa agent is an aqueous solution of sulfamonomethoxine having a concentration of 0.02% (w/v).
- a wound in the method of the present invention is a wound to which the gel-forming agent of the present invention can be applied.
- the subject in the method of the present invention is a subject to which the gel-forming agent of the present invention can be applied, and is an arbitrary animal, and preferably a mammal.
- the applied amounts of the sulfa agent and chitosan agent in the method of the present invention provided the effects of the present invention are demonstrated.
- the applied amounts are sufficient for enabling the gel-forming agent of the present invention to cover an affected area. Since the gel-forming agent of the present invention is a powder, even if applied to the affected area in excess, the excess amount comes off as previously described.
- the sulfa agent and chitosan agent of the present invention can each be retained at the affected area at 1 ⁇ g to 30 mg per 1 cm 2 .
- the application frequency is 1, 2, 3, 4 or 5 times per day, once every 2 days, once every 3 days, once every 4 days, once every 5 days, once every 6 days or once a week.
- Daimeton Powder (Meiji Seika Pharma Co., Ltd.) was used for the sulfa agent.
- Daimeton Powder is a powder containing 20 g of sulfamonomethoxine in 100 g thereof.
- a powder obtained by mixing a high molecular weight chitosan (Flonac H, Nippon Suisan Kaisha, Ltd.), a low molecular weight chitosan (Flonac C-100M, Nippon Suisan Kaisha, Ltd.), and a chitin oligosaccharide at a respective weight ratio of 39:59:2 was used for the chitosan agent (Morikensho Co, Ltd., Japan). Furthermore, the degrees of purification (degrees of deacetylation) of the high molecular weight chitosan and low molecular weight chitosan were both about 90%, and are thought to contain about 10% non-deacetylated chitin.
- Drug combination powders containing the sulfa agent and chitosan agent were prepared in the manner indicated below.
- Each of the drug combination powders was filled into a 10 ml eye drop bottle in the order of the chitosan agent followed by the sulfa agent and then mixed by shaking well.
- FIG. 1 the formation of a gel-like layer is observed following treatment with a drug combination powder.
- a drug combination powder drainage and discharge of exudate from the wound site were observed prior to treatment with the drug combination powder ( FIG. 1A )
- the drug combination powder was observed to absorb the exudate, gel, and form a layer following treatment (arrow in FIG. 1B ).
- FIG. 2 A neutered female cat approximately 3 years old having a bite wound on the lower right side of the body was treated with Drug Combination Powder 1 ( FIG. 2 ). Drainage was observed at the time of an initial examination performed one week after incurring the injury and the diameter of missing epithelium was 3.3 cm ( FIG. 2A ). When Drug Combination Powder 1 was dispersed onto the wound site in accordance with the previously described procedure, drainage had already stopped one day after the start of treatment and granulation was observed over the entire wound site ( FIG. 2B ). When the wound site was subsequently continued to be treated daily with Drug Combination Powder 1, the size of the wound site decreased and epithelialization was observed 4 days after the start of treatment ( FIG.
- a six-year-old male dog that had been burned on the back by deep frying oil was treated with Drug Combination Powder 1.
- Drug Combination Powder 1 had been applied to the wound site at home for 23 days starting immediately after the injury, the diameter of missing epithelium remained at 7 cm without exhibiting improvement, and pain, bleeding and exudate discharge were also observed ( FIG. 3A ).
- Drug Combination Powder 1 in accordance with the previously described procedure (accompanied simultaneously by oral administration of an antibiotic (cephalexin) for the first 5 days only), pain, bleeding and exudate discharge were no longer observed 8 days after the start of treatment, and granulation was observed over the entire area of missing epithelium ( FIG. 3B ).
- the size of the wound site decreased in size 18 days after the start of treatment ( FIG. 3C ). Formation of epithelium was observed over the entire wound site 26 days after the start of treatment. Although slight pain was observed until the epithelium formed when the wound site was washed during treatment, the dog did not exhibit signs of pain during dispersal of the drug combination powder.
- amputation at the scapular joint would normally be performed since the wound site exhibited necrosis over a wide range several days after the injury, the leg was amputated at the left elbow joint in order to preserve the possibility of being able to walk smoothly without assistance followed by suturing of the amputated site.
- Five days after surgery ( FIG. 5A ), since the sutured site had opened up exposing the sutured muscle tissue ( FIG. 5B ), it was thought to be necessary to repeat amputation at the scapular joint.
- the Daimeton Powder remained on the surface of the gauze in the state of a powder 2 hours later ( FIG. 6A ), and a large amount of the powder came off the gauze when the gauze was tilted on an angle to remove the powder.
- Drug Combination Powder 1 was tinted white and formed a somewhat gel-like layer ( FIG. 6C ).
- This layer had a certain degree of hardness, did not come off easily even if the gauze was tilted at an angle to remove the powder, and demonstrated little deformation even if pressed with a finger. In addition, the texture was somewhat dry.
- the ability of the drug combination powder to form a gel layer as described above is thought to enable the drug combination powder to be suitably retained at the affected area while simultaneously demonstrating a protective function and a therapeutic effect over a long period of time. Furthermore, the drug combination powder is easily removed by washing with water or physiological saline.
- Daimeton Powder ( ⁇ ), chitosan agent ( ⁇ ) and Drug Combination Powder 1 ( ⁇ ) were respectively dispersed in the hole by using an eyedropper.
- Time-based changes in pH at the center of each piece of gauze were then observed ( FIG. 7A ).
- Time-based changes in pH in the case of only dispersing a drug without dropping feline blood onto the gauze under the aforementioned conditions were observed as a control ( FIG. 7B ).
- pH in the case of physiological saline (X) only was also measured.
- the aforementioned Drug Combination Powder 1 was dispersed at a tooth extraction site in a dog. Hemostatic effects were demonstrated at the extraction site and gelation commenced immediately after dispersal, and protective effects were obtained 5 minutes later accompanying the suitable formation of a gel-like protective layer. The results are shown in FIG. 8 .
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Abstract
Description
- The present invention relates to a gel-forming agent comprising a sulfa agent and chitosan agent and having a powdered dosage form, more particularly, to a gel-forming agent for protecting an exudative affected area, and even more particularly, to a gel-forming agent for treating a wound. In addition, the present invention provides a kit containing a gel-forming agent, a method for forming a gel at a target affected area comprising a step for applying a gel-forming agent, more particularly, a method for protecting an exudative affected area, and even more particularly, a wound treatment method.
- Wounds observed in the clinical context impose severe physical, emotional and financial burdens on subject suffering from wounds. In animals, including humans, inadequate treatment of wounds increases the risk of bacterial infection. When a wound becomes infected by bacteria, symptoms such as abscess, cellulitis or exudate are manifest at the wound site, resulting in tissue damage and prolongation of treatment. In addition, the wound surface may become discolored and form abnormal granulation tissue, resulting in the onset of pain, reddening or a foul odor.
- Sulfa agents have long been used to prevent and treat infections. Sulfa agents refer to the generic term for synthetic compounds having a sulfonamide group. Sulfa agents antagonistically inhibit para-aminobenzoic acid, the substrate of dihydropteroate synthase, which is an essential enzyme of the folic acid synthesis pathway. As a result, sulfa agents demonstrate an antibacterial action by inhibiting folic acid synthesis, as well as DNA/RNA synthesis requiring folic acid, in bacteria.
- In addition, sulfa agents demonstrate a blood pH-lowering action by preventing the formation of bicarbonate ions by inhibiting carbonic anhydrase. As a result, antibacterial action is demonstrated by lowered wound pH to a pH below the optimum pH for bacterial growth.
- Chitosan agents are also widely used in wound treatment. Chitosan agents having a D-glucosamine polymer as the main component thereof induce fibroblasts to promote granulation and accelerate wound healing when applied to a wound site.
- A pharmaceutical cream is known for restoring skin and treating bacterial skin infections that contains a sulfa agent and chitosan agent (Patent Document 1).
- Patent Document 1: International Publication No.
WO 2010-119369 - Since sulfa agents are only slightly soluble in water and end up drying immediately, they were required to adopt the dosage form of a cream when used as a wound healing agent. However, the cream is applied by the person performing treatment while repeatedly making direct contact with the wound site, thereby subjecting to the patient to irritating pain while also requiring a technique to ensure the cream is applied uniformly.
- Chitosan agents may cause excessive promotion of granulation or exacerbate inflammation by promoting bacterial growth as a result of having a somewhat high pH, thereby resulting in the problem of handling difficulties when used as a wound healing agent.
- In addition, since creams facilitate the adherence of hair, clothing and dust from the outside, it is difficult to keep the wound site clean. Although adhesive sheets have been provided to improve on this problem, adhesive sheets have problems such as difficulty in sticking to joints or wound sites having a highly irregular surface or wounds covered with hair, reinjuring normal skin or granulated wound sites when peeled from the skin where the adhesive sheet is adhered, or causing the patient pain when peeled from the skin.
- As a result of conducting extensive studies, the inventor of the present invention found that the aforementioned problems are solved by using a composition containing a sulfa agent and a chitosan agent in a powdered dosage form, thereby leading to completion of the present invention.
- Namely, the gist of the present invention is as indicated below.
- [1] A gel-forming agent comprising a sulfa agent and a chitosan agent and having a powdered dosage form.
- [2] The gel-forming agent described in [1] for protecting an exudative affected area.
- [3] The gel-forming agent described in [1] or [2] for treating a wound.
- [4] The gel-forming agent described in any of [1] to [3], wherein the sulfa agent is selected from the group consisting of sulfamonomethoxine, acetylsulfamethoxazole, salazosulfapyridine, sulfadiazine, silver sulfadiazine, sulfadimethoxine, sulfathiazole, sulfaphenazole, sulfamethoxazole, sulfamethoxypyridazine, sulfamethopyrazine, sulfamethomidine, sulfamethizole, sulfamerazine, sulfisoxazole, sulfisomidine, sulfisomidine sodium, homosulfamine and derivatives thereof.
- [5] The gel-forming agent described in any of [1] to [4], wherein the sulfa agent is sulfamonomethoxine or a derivative thereof.
- [6] The gel-forming agent described in any of [1] to [5], wherein the chitosan agent is a mixture of a high molecular weight chitosan and a low molecular weight chitosan.
- [7] The gel-forming agent described in any of [1] to [6], wherein the chitosan agent contains chitin.
- [8] The gel-forming agent described in any of [1] to [7], wherein the sulfa agent and the chitosan agent are mixed at a weight ratio of 20:1 to 1:20.
- [9] The gel-forming agent described in any of [1] to [8], wherein the sulfa agent and the chitosan agent are mixed at a weight ratio of 5:1 to 1:5.
- [10] The gel-forming agent described in any of [1] to [9], wherein the affected area is an acute wound selected from the group consisting of an incised wound, laceration, abrasion, puncture wound, penetrating wound, bruise, hematoma and crush wound.
- [11] The gel-forming agent described in any of [1] to [9], wherein the affected area is a chronic wound selected from the group consisting of a wounds caused by venous ulcer, diabetic ulcer, decubital ulcer, corneal ulcer, digestive ulcer, ischemia, radiation injury, stomatitis and skin disease.
- [12] The gel-forming agent described in any of [1] to [11], wherein the subject is a bird, reptile, amphibian, fish or mammal.
- [13] The gel-forming agent described in [12], wherein the subject is a mammal selected from the group consisting of a dog, cat, horse, sheep, cow and human.
- [14] A method for producing the gel-forming agent described in any of [1] to [13], comprising: a step for mixing a sulfa agent and a chitosan agent.
- [15] A powdered sulfa agent for applying separately and consecutively or simultaneously in combination with a powdered chitosan agent to an affected area of a subject.
- [16] A powdered chitosan agent for applying separately and consecutively or simultaneously in combination with a powdered sulfa agent to an affected area of a subject.
- [17] A gel formation kit comprising the gel-forming agent described in any of [1] to [13], the sulfa agent described in [15] or the chitosan agent described in [16], and a powder dissipating container.
- [18] The gel formation kit described in [17], wherein the powder dissipating container is in the shape of an dropper.
- [19] A method for forming a gel at an affected area of a subject, comprising: a step a) for combining a sulfa agent and a chitosan agent, each in the form of a powder, and separately and consecutively or simultaneously applying at an affected area of a subject.
- [20] The method described in [19] for protecting an exudative affected area.
- [21] The method described in [19] or [20] for treating a wound.
- [22] The method described in any of [19] to [21], wherein the sulfa agent is selected from the group consisting of sulfamonomethoxine, acetylsulfamethoxazole, salazosulfapyridine, sulfadiazine, silver sulfadiazine, sulfadimethoxine, sulfathiazole, sulfaphenazole, sulfamethoxazole, sulfamethoxypyridazine, sulfamethopyrazine, sulfamethomidine, sulfamethizole, sulfamerazine, sulfisoxazole, sulfisomidine, sulfisomidine sodium, homosulfamine and derivatives thereof.
- [23] The method described in any of [19] to [22], wherein the sulfa agent is sulfamonomethoxine or a derivative thereof.
- [24] The method described in any of [19] to [23], wherein the chitosan agent is a mixture of a high molecular weight chitosan and a low molecular weight chitosan.
- [25] The method described in any of [19] to [24], wherein the chitosan agent comprises chitin.
- [26] The method described in any of [19] to [25], wherein the applied sulfa agent and chitosan agent are mixed at a weight ratio of 20:1 to 1:20.
- [27] The method described in any of [19] to [26], wherein the applied sulfa agent and chitosan agent are mixed at a weight ratio of 5:1 to 1:5.
- [28] The method described in any of [19] to [27], wherein the applied sulfa agent and chitosan agent are mixed in advance.
- [29] The method described in any of [19] to [28], wherein the application consists of applying directly to an affected area.
- [30] The method described in any of [19] to [29], wherein the application uses a dissipating container.
- [31] The method described in any of [19] to [30], wherein the affected area is an acute wound selected from the group consisting of an incised wound, laceration, abrasion, puncture wound, penetrating wound, bruise, hematoma and crush wound.
- [32] The method described in any of [19] to [30], wherein the affected area is a chronic wound selected from the group consisting of a wounds caused by venous ulcer, diabetic ulcer, decubital ulcer, corneal ulcer, digestive ulcer, ischemia, radiation injury, stomatitis and skin disease.
- [33] The method described in any of [19] to [32], wherein the subject is a bird, reptile, amphibian, fish or mammal.
- [34] The method described in [33], wherein the subject is a mammal selected from the group consisting of a dog, cat, horse, sheep, cow and human.
- According to the present invention, a wound healing composition is provided that has a wound healing effect that is more remarkable than that of a conventional sulfa agent or chitosan agent alone. Namely, a powder containing a sulfa agent and a chitosan agent maintains the pH of a wound site within a range at which greater healing effects are demonstrated and exhibits antibacterial action of a sulfa agent. The wound site is kept at suitable moist condition to form granulation appropriately. In addition, as a result of having a powder for the dosage form, the use of a suitable dissipating container makes it possible to disperse the wound healing composition without the person performing treatment making direct contact with the wound site. Moreover, a gel layer is surprisingly formed by interaction between the sulfa agent and the chitosan agent when the powder contacts body fluid at the wound site, thereby also fulfilling the role of protecting the wound site.
-
-
FIG. 1 shows the formation of a gel layer at a wound site by the gel-forming agent of the present invention. -
FIG. 2 shows the progress of a wound site of aCase 1 following application of the gel-forming agent of the present invention. -
FIG. 3 shows the progress of a wound site of aCase 2 following application of the gel-forming agent of the present invention. -
FIG. 4 shows the progress of a wound site of aCase 3 following application of the gel-forming agent of the present invention. -
FIG. 5 shows the progress of a wound site of aCase 4 following application of the gel-forming agent of the present invention. -
FIG. 6 shows the ability of the gel-forming agent of the present invention to form a gel layer in blood. -
FIG. 7A shows time-based changes in pH following application of the gel-forming agent of the present invention. -
FIG. 7B shows time-based changes in pH following application of the gel-forming agent of the present invention. -
FIG. 8 shows the hemostatic and protective effects of the gel-forming agent of the present invention at a tooth extraction site in a dog. - The present invention provides a gel-forming agent comprising a sulfa agent and a chitosan agent and having a powdered dosage form, more particularly, a gel-forming agent for protecting an exudative affected area, and even more particularly, a gel-forming agent for treating a wound.
- The gel-forming agent of the present invention comprises a sulfa agent. In the present invention, the sulfa agent refers to an arbitrary synthetic compound having a sulfonamide group that can be presumed to be used in a pharmaceutical. Specific examples thereof include, but are not limited to, sulfamonomethoxine, acetylsulfamethoxazole, salazosulfapyridine, sulfadiazine, silver sulfadiazine, sulfadimethoxine, sulfathiazole, sulfaphenazole, sulfamethoxazole, sulfamethoxypyridazine, sulfamethopyrazine, sulfamethomidine, sulfamethizole, sulfamerazine, sulfisoxazole, sulfisomidine, sulfisomidine sodium and homosulfamine. These sulfa agents may also be in the form of a derivative or a salt such as a silver salt. In a certain specific mode, the sulfa agent is sulfamonomethoxine or a sulfadimethoxine. In addition, in a different mode, the sulfa agent is sulfamonomethoxine.
- The gel-forming agent of the present invention comprises a chitosan agent. In the present invention, a chitosan agent refers to a mixture having a linear polymer of D-glucosamine in the form of chitosan as the main component thereof. There are no particular limitations on the degree of polymerization or molecular weight of the chitosan agent. In a certain specific mode, the chitosan agent of the present invention is a mixture of a high molecular weight chitosan (molecular weight: 10,000 or more) and a low molecular weight chitosan (molecular weight: less than 10,000). Although there are no particular limitations on the mixing ratio of the high molecular weight chitosan and low molecular weight chitosan, an example thereof is a mixing ratio having a weight ratio of 1:9 to 9:1.
- The chitosan agent in the present invention may further contain chitin. Chitin refers to a linear polymer of N-acetyl glucosamine and glucosamine. There are no particular limitations on the degree of polymerization of the chitin, and may be an oligosaccharide (degree of polymerization: 3 to 10). In the case chitin is contained in the chitosan agent of the present invention, the content of chitin is preferably a weight ratio of 15% or less.
- In a preferable mode thereof, the gel-forming agent of the present invention comprises sulfamonomethoxine and a chitosan agent comprising chitin. In a more preferable mode, the ratio of high molecular weight chitosan to low molecular weight chitosan to chitin oligosaccharide in the chitosan agent comprising chitin is a weight ratio of 39:59:2.
- In the gel-forming agent of the present invention, there are no particular limitations on the mixing ratio of the sulfa agent and chitosan agent of the present invention, and can be set as desired corresponding to the type and severity of the wound. In a certain mode, the sulfa agent and chitosan agent of the present invention are mixed at a weight ratio of 20:1 to 1:20. In a preferable mode, the sulfa agent and the chitosan agent are mixed at a weight ratio of 5:1 to 1:5. It is preferable to increase the mixing ratio of the sulfa agent in the case of a high degree of bleeding, exudation or serious infection is observed at the wound site or in the case of advanced granulation, and for example, the gel-forming agent of the present invention in which the sulfa agent and chitosan agent are mixed at a weight ratio of 21:5 is preferable. In the case of containing an excipient in this mode, the sulfa agent, chitosan agent and excipient are mixed at a weight ratio of, for example, 21:5:84. On the other hand, it is preferable to lower the mixing ratio of the sulfa agent in the case serious damage is observed at the wound site or prior to granulation, and for example, the gel-forming agent of the present invention in which the sulfa agent and chitosan agent are mixed at a weight ratio of 7:15 is preferable. In this case of containing an excipient in this mode, the sulfa agent, chitosan agent and excipient are mixed at a weight ratio of, for example, 7:15:28.
- The dosage form of the gel-forming agent of the present invention is a powder. A powder refers to a powdered dosage form. Although there are no particular limitations on the particle diameter of the powder, it is preferably a particle diameter that allows the powder to pass through a sieve having an opening size of 500 µm. A powder of this particle size enables the gel-forming agent of the present invention to be applied uniformly without the person performing treatment making direct contact with the affected area by using, for example, a dissipating container. There are no particular limitations on the method used to formulate the gel-forming agent of the present invention into the dosage form of a powder provided it is a method commonly carried out for pharmaceutical preparations, and may be granulation in order to demonstrate the effects of the present invention. Examples of granulation methods include disintegrating granulation, extrusion granulation, fluidized-bed granulation, spray granulation, tumbling granulation and agitation granulation.
- As a result of the gel-forming agent of the present invention having a powdered dosage form, a drug can be applied without limiting the location, form or state of the affected area.
- Moreover, as a result of the gel-forming agent of the present invention having a powdered dosage form, the sulfa agent and chitosan agent interact with moisture resulting in the formation of a somewhat gel-like layer when the drug is applied to an exudative affected area and contacts a body fluid such as blood, saliva or exudate. In this manner, as a result of a gel layer being formed at an exudative affected area, the gel-forming agent is easily retained at the wound site while also simultaneously fulfilling the role of a protective sheet. The surface of the sheet has low viscosity and prevents foreign objects from adhering to the wound site.
- The thickness and degree of solidity of the gel layer formed by the gel-forming agent of the present invention as described above is adjusted spontaneously according to the degree of severity of the affected area. Namely, in the case a wound is severe and there is a large amount of exudate, the gel-forming agent of the present invention adheres in a thick layer, while in the case the wound is healing and there is little exudate, the gel-forming agent of the present invention adheres in a thin layer. In addition, unnecessary powder comes off spontaneously accompanying body movement. Furthermore, the gel layer can be easily removed with water or physiological saline without causing intense pain or injury to the patient.
- The gel-forming agent of the present invention may also contain an arbitrary pharmacologically acceptable excipient, vehicle or diluent provided the effects of the present invention are not lost. Specific examples of excipients include, but are not limited to, lactose, sucrose and cornstarch.
- The gel-forming agent of the present invention can be used at an arbitrary affected area. The affected area may be a skin surface, mucous membrane, oral cavity, digestive organ or urinary bladder. Specific examples of wounds include acute wounds selected from the group consisting of an incised wound, laceration, abrasion, puncture wound, penetrating wound, bruise, hematoma and crush wound, and chronic wounds selected from the group consisting of venous ulcer, diabetic ulcer, decubital ulcer, corneal ulcer, digestive ulcer, ischemia, radiation injury, stomatitis and skin disease.
- A subject to which the gel-forming agent of the present invention is applied is an arbitrary animal that has incurred a wound. Examples of subjects include, but are not limited to, birds, reptiles, amphibians, fish and mammals. In a certain mode, the subject is a mammal, and examples thereof include a dog, cat, horse, sheep, cow and human.
- There are no particular limitations on the method used to apply the gel-forming agent of the present invention to an affected area provided the dosage form of the gel-forming agent of the present invention is a powder. In a certain mode, the gel-forming agent of the present invention is applied without the person performing treatment making direct contact with the wound site by using a powder dissipating container. The dissipating container used in this case may be an arbitrary container capable of dispersing the gel-forming agent of the present invention, and an eyedropper, for example, may be used to apply the gel-forming agent of the present invention.
- The present invention also provides a method for producing the gel-forming agent of the present invention that comprises mixing a sulfa agent, a chitosan agent, and an excipient as necessary.
- Examples of raw materials preferably used in the production method of the present invention include each of the compounds exemplified in the gel-forming agent of the present invention.
- There are no particular limitations on the method used to acquire each of the raw materials used in the production method of the present invention. The chitosan agent may be obtained by deacetylation of chitin using a known method.
- There are no particular limitations on the mixing method used in the production method of the present invention provided the sulfa agent and the chitosan agent are uniformly mixed in the form of a powder. In a certain mode, a chitosan agent having a low specific gravity is first placed in a mixing container followed by the addition of a sulfa agent having a high specific gravity and mixing by stirring. According to this mode, the raw materials are mixed more rapidly and uniformly.
- The present invention also provides a powdered sulfa agent for applying to an affected area of a subject either separately and consecutively or simultaneously by combining with a powdered chitosan agent in order to form a gel, more particularly, to protect an exudative affected area, and even more particularly, to treat a wound.
- Specific examples of the powdered sulfa agent of the present invention include sulfa agents exemplified in the gel-forming agent of the present invention.
- The present invention also provides a powdered chitosan agent for applying to an affected area of a subject either separately and consecutively or simultaneously by combining with a powdered sulfa agent in order to form a gel, more particularly, to protect an exudative affected area, and even more particularly, to treat a wound.
- Specific examples of the powdered chitosan agent of the present invention include chitosan agents exemplified in the gel-forming agent of the present invention.
- In addition, the present invention provides a gel formation kit containing the gel-forming agent of the present invention, a powdered sulfa agent for applying by combining with a chitosan agent or a powdered chitosan agent for applying by combining with a sulfa agent, and depending on the case, a dissipating container.
- In a certain mode, the gel formation kit of the present invention contains a powder dissipating container. The powder dissipating container is an arbitrary container capable of dispersing the gel-forming agent of the present invention, and is an eyedropper container, for example.
- Preferable examples of the sulfa agent and chitosan agent in the gel formation kit of the present invention include each of the compounds exemplified in the gel-forming agent of the present invention.
- The present invention provides a method for forming a gel at an affected area of a subject, more particularly, a method for protecting an exudative affected area, and even more particularly, a method for treating a wound, comprising:
- a step a) for combining a sulfa agent and a chitosan agent, each in the form of a powder, and separately and consecutively or simultaneously applying at an affected area of a subject.
- According to this method, wounds that were unable to be adequately healed using a conventional treatment method can be healed to a degree that they do not have an effect on the daily life of the subject.
- In the method of the present invention, the sulfa agent and the chitosan agent may be applied separately and consecutively, or may be applied simultaneously. In the case of applying simultaneously, they can be preferably applied as a mixture of the two.
- Examples of the powdered sulfa agent and chitosan agent applied in the method of the present invention include each of the compounds exemplified in the gel-forming agent of the present invention.
- In a certain mode of the method of the present invention, the powder is directly applied to an affected area, and more particularly, to an exudative affected area or wound site. Applying directly refers to applying the powder as is.
- In a certain mode of the method of the present invention, a dissipating container can be used during application. The dissipating container is an arbitrary container capable of spraying the gel-forming agent of the present invention, and is, for example, an eyedropper container.
- In a certain mode thereof, the method of the present invention further comprises a step for preliminarily rinsing the affected area with water, physiological saline, or water or physiological saline containing a sulfa agent prior to applying the sulfa agent and chitosan agent to the affected area. An example of the water containing the sulfa agent is an aqueous solution of sulfamonomethoxine having a concentration of 0.02% (w/v).
- A wound in the method of the present invention is a wound to which the gel-forming agent of the present invention can be applied.
- The subject in the method of the present invention is a subject to which the gel-forming agent of the present invention can be applied, and is an arbitrary animal, and preferably a mammal.
- There are no particular limitations on the applied amounts of the sulfa agent and chitosan agent in the method of the present invention provided the effects of the present invention are demonstrated. The applied amounts are sufficient for enabling the gel-forming agent of the present invention to cover an affected area. Since the gel-forming agent of the present invention is a powder, even if applied to the affected area in excess, the excess amount comes off as previously described. In a certain mode, the sulfa agent and chitosan agent of the present invention can each be retained at the affected area at 1 µg to 30 mg per 1 cm2.
- There are no particular limitations on the number and frequency of applications of the method of the present invention provided the effects of the present invention are demonstrated. In a certain mode, the application frequency is 1, 2, 3, 4 or 5 times per day, once every 2 days, once every 3 days, once every 4 days, once every 5 days, once every 6 days or once a week.
- Although the following provides a more detailed explanation of the present invention through examples thereof, the present invention is not limited to the following examples provided the gist thereof is not exceeded.
- 20% Daimeton Powder (Meiji Seika Pharma Co., Ltd.) was used for the sulfa agent. Daimeton Powder is a powder containing 20 g of sulfamonomethoxine in 100 g thereof.
- A powder obtained by mixing a high molecular weight chitosan (Flonac H, Nippon Suisan Kaisha, Ltd.), a low molecular weight chitosan (Flonac C-100M, Nippon Suisan Kaisha, Ltd.), and a chitin oligosaccharide at a respective weight ratio of 39:59:2 was used for the chitosan agent (Morikensho Co, Ltd., Japan). Furthermore, the degrees of purification (degrees of deacetylation) of the high molecular weight chitosan and low molecular weight chitosan were both about 90%, and are thought to contain about 10% non-deacetylated chitin.
- Drug combination powders containing the sulfa agent and chitosan agent were prepared in the manner indicated below.
Drug Combination Powder 1Volume ratio: 1:1 Volume: 10 ml Daimeton Powder 3.5 g (0.7 g sulfamonomethoxine) Chitosan agent 1.5 g Drug Combination Powder 2Volume ratio: 9:1 Volume: 10 ml Daimeton Powder 6.3 g (1.26 g sulfamonomethoxine) Chitosan agent 0.3 g - Each of the drug combination powders was filled into a 10 ml eye drop bottle in the order of the chitosan agent followed by the sulfa agent and then mixed by shaking well.
- In the following examples, drug combination powders were dispersed onto wound sites in the manner indicated below as a general rule.
- (1) The area around the wound site was shaved.
- (2) The wound site was washed with 0.1% Daimeton suspension (in water).
- (3)
Drug Combination Powder 1 orDrug Combination Powder 2 was dispersed in a thin layer onto the wound site until the wound site and the area around the wound site became white. - (4) The treatment of steps (2) and (3) was repeated once a day.
- Typically, as shown in
FIG. 1 , the formation of a gel-like layer is observed following treatment with a drug combination powder. Although drainage and discharge of exudate from the wound site were observed prior to treatment with the drug combination powder (FIG. 1A ), the drug combination powder was observed to absorb the exudate, gel, and form a layer following treatment (arrow inFIG. 1B ). - In the following examples, changes in pH were measured using the SkinCheck Skin pH Tester (HI 98109, Hanna Instruments Inc., U.S.A.). After wetting the flat sensor of the tester with pure water, pH was measured by contacting the flat sensor directly with the site desired to be measured.
- A neutered female cat approximately 3 years old having a bite wound on the lower right side of the body was treated with Drug Combination Powder 1 (
FIG. 2 ). Drainage was observed at the time of an initial examination performed one week after incurring the injury and the diameter of missing epithelium was 3.3 cm (FIG. 2A ). WhenDrug Combination Powder 1 was dispersed onto the wound site in accordance with the previously described procedure, drainage had already stopped one day after the start of treatment and granulation was observed over the entire wound site (FIG. 2B ). When the wound site was subsequently continued to be treated daily withDrug Combination Powder 1, the size of the wound site decreased and epithelialization was observed 4 days after the start of treatment (FIG. 2C ), and epithelium covered the entire wound site and the damaged skin was favorably regenerated 6 days after the start of treatment (FIG. 2D ). When changes in pH at the wound site were measured during the course of treatment, the pH was found to range between pH 5 and pH 7. In addition, although slight pain was observed until the epithelium formed when the wound site was washed during treatment, the cat did not exhibit signs of pain during dispersal of the drug combination powder. - A six-year-old male dog that had been burned on the back by deep frying oil was treated with
Drug Combination Powder 1. Although Daimeton Powder had been applied to the wound site at home for 23 days starting immediately after the injury, the diameter of missing epithelium remained at 7 cm without exhibiting improvement, and pain, bleeding and exudate discharge were also observed (FIG. 3A ). Thus, when the wound was treated once a day withDrug Combination Powder 1 in accordance with the previously described procedure (accompanied simultaneously by oral administration of an antibiotic (cephalexin) for the first 5 days only), pain, bleeding and exudate discharge were no longer observed 8 days after the start of treatment, and granulation was observed over the entire area of missing epithelium (FIG. 3B ). When treatment was subsequently continued, the size of the wound site decreased in size 18 days after the start of treatment (FIG. 3C ). Formation of epithelium was observed over the entire wound site 26 days after the start of treatment. Although slight pain was observed until the epithelium formed when the wound site was washed during treatment, the dog did not exhibit signs of pain during dispersal of the drug combination powder. - An 8-month-old female cat that had been burned on the thighs with hot water was treated with
Drug Combination Powder 2. Pain, heat sensation and exudate discharge were observed at the time of the injury, and redness and hair loss were observed at the wound site. When the wound site was washed and treated by dispersing Drug Combination Powder 2 (while simultaneously treating by intravenous infusion and antibiotic) at the wound site during hospitalization for 8 days starting immediately after the injury, although exudate discharge was still observed, regeneration of epithelium was observed over the entire wound site (FIG. 4A ). Since the wound site was observed to have improved, when the cat was discharged and status was monitored at home after switching treatment to Daimeton Powder administered once a day, epithelialization did not progress on the left inner thigh only and exudate discharge was still observed even after 11 days had passed since switching treatment (19 days after injury) (arrow inFIG. 4B ). Although treatment with Daimeton was continued until about 1 month had elapsed following injury, epithelialization of the left inner thigh was still not observed and improvement was also not observed (FIG. 4C ). Therefore, when treatment withDrug Combination Powder 2 was started about 2 months after the injury, improvement was observed immediately, and when the cat was monitored for 1 month after the start of treatment with Drug Combination Powder 2 (about 3 months after injury), the left inner thigh had epithelialized completely (FIG. 4D ). Although slight pain was observed until the epithelium formed when the wound site was washed during treatment, the cat did not exhibit signs of pain during dispersal of the drug combination powder. - A male cat approximately one year old underwent amputation after having incurred a carpal fracture caused by a steel trap. Although amputation at the scapular joint would normally be performed since the wound site exhibited necrosis over a wide range several days after the injury, the leg was amputated at the left elbow joint in order to preserve the possibility of being able to walk smoothly without assistance followed by suturing of the amputated site. Five days after surgery (
FIG. 5A ), since the sutured site had opened up exposing the sutured muscle tissue (FIG. 5B ), it was thought to be necessary to repeat amputation at the scapular joint. However, status improved following treatment of the sutured site withDrug Combination Powder 1 in accordance with the previously described procedure (while simultaneously administering antibiotic (sawacillin)). Granulation was observed over the entire originally sutured site and epithelialization was observed around the originally sutured site 8 days after the start of treatment with Drug Combination Powder 1 (13 days after amputation) (FIG. 5C ). The wound site was present only on the end of the amputated leg and regeneration of skin was observed 16 days after the start of treatment with Drug Combination Powder 1 (21 days after amputation) (FIG. 5D ). Status of the wound subsequently progressed favorably and the cat recovered to the extent that he was able to run around outside. In addition, although slight pain was observed until the epithelium formed when the wound site was washed during treatment, the cat did not exhibit signs of pain during dispersal of the drug combination powder. - An approximately 13-year-old cat with decubitus in both hind legs was treated with a
Drug Combination Powder 3 having the same composition asDrug Combination Powder 2 with the exception of using sulfadimethoxine (Abcid (Powder), Daiichi Sankyo Co., Ltd., Japan) instead of sulfamonomethoxine. Since the cat was suffering from feline immunodeficiency disease causing skin over the entire body to be thin and be easily damaged as a result of contacting the floor, status was maintained by dispersing Abcid powder at those sites of the hind legs that contacted the floor and then wrapping with tape. However, as general condition worsened, the areas of missing skin where the hind limbs contacted the floor increased in size, eventually leading to missing epithelium over a diameter of 1.5 cm, bleeding and ulceration. Thus, when the affected areas were treated withDrug Combination Powder 3 once a day in accordance with the previously described procedure followed by taping, bleeding was no longer observed, ulceration improved, and a film had formed over the area of missing skin on the following day. Similar treatment was subsequently performed every few days, and status was maintained without any exacerbation for six months until the cat died of prolonged illness. When the tape was removed while rinsing with a 0.1% suspension of Abcid during the course of treatment, the cat did not exhibit any signs of intense pain. In addition, the cat did not exhibit signs of pain during dispersal of the drug combination powder. - A study was conducted on changes in a sulfa agent, chitosan agent and
Drug Combination Powder 1 following contact with body fluid. 10 ml of physiological saline were dropped onto a double-layered non-woven gauze fabric (15 cm x 15 cm) to impregnate the entire gauze fabric with the physiological saline. Subsequently, 0.5 ml of feline blood were dropped onto the gauze to a diameter of about 5 cm. Pattern paper obtained by poking out a hole having a diameter of about 4 cm in a piece of powdered paper was then prepared. The pattern paper was placed on the gauze so that the hole was positioned in the center of the circle formed by dropping the feline blood onto the gauze. Daimeton Powder, chitosan agent andDrug Combination Powder 1 were respectively dispersed in the hole by using an eyedropper. The properties of each drug that contacted the feline blood as a result of the above procedure were observed 2 hours after dispersal. - As a result, the Daimeton Powder remained on the surface of the gauze in the state of a
powder 2 hours later (FIG. 6A ), and a large amount of the powder came off the gauze when the gauze was tilted on an angle to remove the powder. - On the other hand, although the chitosan agent dissolved in the feline blood simultaneous to dispersal and gelled 2 hours later (
FIG. 6B ), the gel was quite soft, became deformed when the gauze was pressed with a finger, and took on viscosity. - On the other hand,
Drug Combination Powder 1 was tinted white and formed a somewhat gel-like layer (FIG. 6C ). This layer had a certain degree of hardness, did not come off easily even if the gauze was tilted at an angle to remove the powder, and demonstrated little deformation even if pressed with a finger. In addition, the texture was somewhat dry. - The ability of the drug combination powder to form a gel layer as described above is thought to enable the drug combination powder to be suitably retained at the affected area while simultaneously demonstrating a protective function and a therapeutic effect over a long period of time. Furthermore, the drug combination powder is easily removed by washing with water or physiological saline.
- A study was conducted on changes in a sulfa agent, chitosan agent and
Drug Combination Powder 1 following contact with body fluid. 10 ml of physiological saline were dropped onto a double-layered non-woven gauze fabric (15 cm x 15 cm) to impregnate the entire gauze fabric with the physiological saline. Subsequently, 0.5 ml of feline blood were dropped onto the gauze to a diameter of about 5 cm. Pattern paper obtained by poking out a hole having a diameter of about 4 cm in a piece of powdered paper was then prepared. The pattern paper was placed on the gauze so that the hole was positioned in the center of the circle formed by dropping the feline blood onto the gauze. Daimeton Powder (◆), chitosan agent (■) and Drug Combination Powder 1 (▲) were respectively dispersed in the hole by using an eyedropper. Time-based changes in pH at the center of each piece of gauze were then observed (FIG. 7A ). Time-based changes in pH in the case of only dispersing a drug without dropping feline blood onto the gauze under the aforementioned conditions were observed as a control (FIG. 7B ). At that time, pH in the case of physiological saline (X) only was also measured. - As a result, in the case of dispersing each of the drugs onto the feline blood, pH reached equilibrium at 8.0 in the case of dispersing Daimeton Powder. On the other hand, pH rose to the vicinity of 8.5 in the case of dispersing the chitosan agent. However, in the case of dispersing the drug combination powder, pH reached equilibrium at 8.0 in the same manner as in the case of the Daimeton Powder. In the case of dispersing the drug combination powder on physiological saline, although pH was lower than in the case of the chitosan agent alone, equilibrium was reached at a higher pH value than in the case of dispersing Daimeton Powder (
FIG. 7B ). - The aforementioned result, in which the pH value resulting from dispersal of the drug combination powder in blood is nearly the same as the pH value resulting from dispersal of the sulfa agent, suggests that, as a result of using the sulfa agent in the form of a drug combination powder, the pH lowering action attributable to a reaction between the sulfa agent and blood suppresses a bad effect by the rise in pH attributable to the chitosan agent. This ability of the drug combination powder to control pH is thought to promote wound healing effects.
- The aforementioned
Drug Combination Powder 1 was dispersed at a tooth extraction site in a dog. Hemostatic effects were demonstrated at the extraction site and gelation commenced immediately after dispersal, and protective effects were obtained 5 minutes later accompanying the suitable formation of a gel-like protective layer. The results are shown inFIG. 8 .
Claims (34)
- A gel-forming agent comprising a sulfa agent and a chitosan agent and having a powdered dosage form.
- The gel-forming agent according to claim 1 for protecting an exudative affected area.
- The gel-forming agent according to claim 1 or 2 for treating a wound.
- The gel-forming agent according to any of claims 1 to 3, wherein the sulfa agent is selected from the group consisting of sulfamonomethoxine, acetylsulfamethoxazole, salazosulfapyridine, sulfadiazine, silver sulfadiazine, sulfadimethoxine, sulfathiazole, sulfaphenazole, sulfamethoxazole, sulfamethoxypyridazine, sulfamethopyrazine, sulfamethomidine, sulfamethizole, sulfamerazine, sulfisoxazole, sulfisomidine, sulfisomidine sodium, homosulfamine and derivatives thereof.
- The gel-forming agent according to any of claims 1 to 4, wherein the sulfa agent is sulfamonomethoxine or a derivative thereof.
- The gel-forming agent according to any of claims 1 to 5, wherein the chitosan agent is a mixture of a high molecular weight chitosan and a low molecular weight chitosan.
- The gel-forming agent according to any of claims 1 to 6, wherein the chitosan agent comprises chitin.
- The gel-forming agent according to any of claims 1 to 7, wherein the sulfa agent and the chitosan agent are mixed at a weight ratio of 20:1 to 1:20.
- The gel-forming agent according to any of claims 1 to 8, wherein the sulfa agent and the chitosan agent are mixed at a weight ratio of 5:1 to 1:5.
- The gel-forming agent according to any of claims 1 to 9, wherein the affected area is an acute wound selected from the group consisting of an incised wound, laceration, abrasion, puncture wound, penetrating wound, bruise, hematoma and crush wound.
- The gel-forming agent according to any of claims 1 to 9, wherein the affected area is a chronic wound selected from the group consisting of a wounds caused by venous ulcer, diabetic ulcer, decubital ulcer, corneal ulcer, digestive ulcer, ischemia, radiation injury, stomatitis and skin disease.
- The gel-forming agent according to any of claims 1 to 11, wherein the subject is a bird, reptile, amphibian, fish or mammal.
- The gel-forming agent according to claim 12, wherein the subject is a mammal selected from the group consisting of a dog, cat, horse, sheep, cow and human.
- A method for producing the gel-forming agent according to any of claims 1 to 13, comprising: a step for mixing a sulfa agent and a chitosan agent.
- A powdered sulfa agent for applying separately and consecutively or simultaneously in combination with a powdered chitosan agent to an affected area of a subject.
- A powdered chitosan agent for applying separately and consecutively or simultaneously in combination with a powdered sulfa agent to an affected area of a subject.
- A gel formation kit comprising the gel-forming agent according to any of claims 1 to 13, the sulfa agent according to claim 15 or the chitosan agent according to claim 16, and a powder dissipating container.
- The gel formation kit according to claim 17, wherein the powder dissipating container is in the shape of an dropper.
- A method for forming a gel at an affected area of a subject, comprising: a step a) for combining a sulfa agent and a chitosan agent, each in the form of a powder, and separately and consecutively or simultaneously applying at an affected area of a subject.
- The method according to claim 19 for protecting an exudative affected area.
- The method according to claim 19 or 20 for treating a wound.
- The method according to any of claims 19 to 21, wherein the sulfa agent is selected from the group consisting of sulfamonomethoxine, acetylsulfamethoxazole, salazosulfapyridine, sulfadiazine, silver sulfadiazine, sulfadimethoxine, sulfathiazole, sulfaphenazole, sulfamethoxazole, sulfamethoxypyridazine, sulfamethopyrazine, sulfamethomidine, sulfamethizole, sulfamerazine, sulfisoxazole, sulfisomidine, sulfisomidine sodium, homosulfamine and derivatives thereof.
- The method according to any of claims 19 to 22, wherein the sulfa agent is sulfamonomethoxine or a derivative thereof.
- The method according to any of claims 19 to 23, wherein the chitosan agent is a mixture of a high molecular weight chitosan and a low molecular weight chitosan.
- The method according to any of claims 19 to 24, wherein the chitosan agent contains chitin.
- The method according to any of claims 19 to 25, wherein the applied sulfa agent and chitosan agent are mixed at a weight ratio of 20:1 to 1:20.
- The method according to any of claims 19 to 26, wherein the applied sulfa agent and chitosan agent are mixed at a weight ratio of 5:1 to 1:5.
- The method according to any of claims 19 to 27, wherein the applied sulfa agent and chitosan agent are mixed in advance.
- The method according to any of claims 19 to 28, wherein the application consists of applying directly to an affected area.
- The method according to any of claims 19 to 29, wherein the application uses a dissipating container.
- The method according to any of claims 19 to 30, wherein the affected area is an acute wound selected from the group consisting of an incised wound, laceration, abrasion, puncture wound, penetrating wound, bruise, hematoma and crush wound.
- The method according to any of claims 19 to 30, wherein the affected area is a chronic wound selected from the group consisting of a wounds caused by venous ulcer, diabetic ulcer, decubital ulcer, corneal ulcer, digestive ulcer, ischemia, radiation injury, stomatitis and skin disease.
- The method according to any of claims 19 to 32, wherein the subject is a bird, reptile, amphibian, fish or mammal.
- The method according to claim 33, wherein the subject is a mammal selected from the group consisting of a dog, cat, horse, sheep, cow and human.
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
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JP2013265620 | 2013-12-24 | ||
PCT/JP2014/083954 WO2015098864A1 (en) | 2013-12-24 | 2014-12-22 | Gel-forming agent containing sulfonamide and chitosan and having a powdered dosage form |
Publications (3)
Publication Number | Publication Date |
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EP3087990A1 true EP3087990A1 (en) | 2016-11-02 |
EP3087990A4 EP3087990A4 (en) | 2017-07-19 |
EP3087990B1 EP3087990B1 (en) | 2020-05-06 |
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EP14874363.6A Active EP3087990B1 (en) | 2013-12-24 | 2014-12-22 | Gel-forming powder comprising sulfamonomethoxine and chitosan for treating wounds |
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US (1) | US10172975B2 (en) |
EP (1) | EP3087990B1 (en) |
JP (2) | JP5766379B1 (en) |
WO (1) | WO2015098864A1 (en) |
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GB2524299A (en) * | 2014-03-19 | 2015-09-23 | Medtrade Products Ltd | Wound dressing |
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US2386157A (en) * | 1945-10-02 | Method for the treatment of | ||
US4532134A (en) * | 1981-04-06 | 1985-07-30 | Malette William Graham | Method of achieving hemostasis, inhibiting fibroplasia, and promoting tissue regeneration in a tissue wound |
JPS5946223A (en) * | 1982-08-30 | 1984-03-15 | Daito Koeki Kk | Antibacterial composition |
JPH04139131A (en) | 1990-09-28 | 1992-05-13 | San Five Kk | Spraying agent |
JPH04261119A (en) * | 1991-02-13 | 1992-09-17 | Lintec Corp | Percutaneous absorption-type pharmaceutical preparation |
GB2327344A (en) * | 1997-07-18 | 1999-01-27 | Ninh Thuy On | Pharmaceutical compositions containing phenytoin and either an azole anti-fungal/anti-bacterial agent and/or a silver salt for topical application |
US6379702B1 (en) | 2000-07-05 | 2002-04-30 | Hydromer, Inc. | Gels formed by the interaction of polyvinylpyrrolidone with chitosan derivatives |
JP3805654B2 (en) | 2001-08-29 | 2006-08-02 | 株式会社ネクスト | Fine particles of biopolymers that prevent hemostasis and adhesion |
CN1410072A (en) | 2002-11-15 | 2003-04-16 | 陈延龙 | Sulfadiazine silver chitinamine powder |
CZ303471B6 (en) | 2007-10-03 | 2012-10-03 | Contipro Biotech S.R.O. | Composition containing chitosan-glucan intended for healing wounds and preventing adhesion of bandage to wound |
US8703924B2 (en) | 2007-10-30 | 2014-04-22 | Viscogel, AB | Chitosan composition |
EP2228078A1 (en) * | 2009-03-09 | 2010-09-15 | Pietrasanta Pharma S.p.A. | Chitosan and polyurethane foam based medication, production process thereof and use thereof in the wound management |
CN102427802A (en) | 2009-04-13 | 2012-04-25 | 苏鲁·苏布拉马尼·瓦南加穆迪 | A medicinal cream made using silver sulphadiazine and chitosan and a process to make it |
US20130029030A1 (en) * | 2010-03-15 | 2013-01-31 | Kristian Larsen | Method for promotion of hemostasis and/or wound healing |
US20110319805A1 (en) | 2010-06-29 | 2011-12-29 | Bryan Knicely Morris | Topical composition for treating the skin |
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2014
- 2014-12-22 JP JP2015501992A patent/JP5766379B1/en active Active
- 2014-12-22 WO PCT/JP2014/083954 patent/WO2015098864A1/en active Application Filing
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- 2014-12-22 US US15/107,850 patent/US10172975B2/en active Active
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EP3087990B1 (en) | 2020-05-06 |
JP2015212280A (en) | 2015-11-26 |
US20160325012A1 (en) | 2016-11-10 |
WO2015098864A4 (en) | 2016-12-15 |
EP3087990A4 (en) | 2017-07-19 |
US10172975B2 (en) | 2019-01-08 |
JPWO2015098864A1 (en) | 2017-03-23 |
JP5766379B1 (en) | 2015-08-19 |
WO2015098864A1 (en) | 2015-07-02 |
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